The radio has gone to a good home in Marcus, OH1MN in Finland. I have never sent a parcel abroad before, let a lone one of this kind of value. But today the radio has been welcomed in it's new home:

I am very pleased that Marcus is pleased :-)

So, my shack has changed a little. Since bringing the new FLEX-6300 home it became very apparent that I needed 2 monitors. Now, I haven't tried 2 monitors before so I assumed I would need a fancy graphics card that supported two.... so I bought one. But no! I don't need a new graphics card at all! I connected one monitor to the VGA port and another to the HDMI port and bingo! To separately controllable monitors we have. Some rearrangements of my test equipment and here we are:

Thursday, 11 December 2014

I've finally decided to have a proper play with Software Defined Radio. I've bought myself a FLEX-6300, which looks dull and boring like this:

The software end of the radio is spectacularly impressive:

The box itself connects to the network I have in the shack, that means I can run the control software from either of the two PC's here, my laptop anywhere in the house and also from just about any remote location where I have internet access. I haven't yet figured out how to get the audio to and from the radio over IP but it is certainly possible.

I can run the control software on one of the PCs in the shack and (for example) connect to the radio using Ham Radio Deluxe from the other PC which can then also run the DM780 application for digital modes. I have got logger32 working successfully with the FLEX-6300 as it offers a standard "CAT" type of interface, I have also got the CW Machine to work but have had to build a simple interface between a COM port on the PC and the accessory connector on the back of the FLEX. I was rather hoping this would be all done in software and "virtual" com ports; but it seems not. This is the interface; the FLEX uses a standard VGA connector for it's accessory port so it was simple to interface against.

The control software includes a feature called "DAX" which is Digital Audio eXchange - it's a means to connect audio to and from the radio to other applications without going from digital to analogue and then back to digital again. That seems to work really well as I have managed to get a number of application (WSJT for example) working easily. There is also a separate piece of software to monitor and control the DAX channels; plus another piece of software for COM port management. You seem to be able to create "virtual" ports as "shared", "dedicated" or "PTT". I have only tried the PTT port so far, ans as expected it creates a virtual com port you can connect with using 3rd party applications and key the PTT line using the RTS line of the virtual port.

I haven't done much experimentation yet, but I understand there are a number of alternative software applications I can use to control the radio - so there is much to play with and find out!

So far my first impressions are excellent although there doesn't seem to be a way to run FSK based RTTY.

Monday, 8 December 2014

You may remember a while back I described a PTT switching circuit to manage the PTT line to the HF linear, 4/6M combined linear, 4M transverter and 2M transverter and linear. Well, I changed it a little more tonight and added a selection switch so I can drive any amplifier/transverter from any radio. This is the original plan:

I've now broken the line from the TS-990 to the PTT select in the diagram above and added another rotary switch. The complexity is in the need to switch the 4M transverter and the 4/6 amplifier in one setting and just the 4/6 amplifier in another.

The unit looks like this now:

Not the most complex project I've ever tackled, here's the front of the case:

and the back:

and here is the finished article in position:

There's been a few other changes here, I've sold some things and bought some things. Tomorrow my new toy should arrive.... I'll keep you posted.

May prove to be a most excellent idea if you happened to want one of these.

This is the basic board populated but still under test inside the house:

The board gave me about 17.5dB of gain right across the 144-147 MHz range. This is a close up of the top of the amplification peak on the Spectrum analyser:

So I took the antennas down (which involves taking the closest element to the ground off the HF beam):

and I fitted the pre-amp. Now, this involved replacing the direct feeder to the beam and introducing a joint in the coax (so I can remove the amp if needed in the future).

So the preamp in in the waterproof box you see above, after many iterations I have the set-up working perfectly. I have, during the process, proved how completely incompetent I am at fitting N-Type connectors! I've got there in the end though - only about a day and a half elapsed time!

All told though, a most excellent result.

Freddie has become exceptionally clingy to me since I returned from the Middle East earlier this week, hasn't helped much today though: